Commit 5a4fff13 authored by Sam Calisch's avatar Sam Calisch

Update README.md

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......@@ -16,6 +16,9 @@ The specs for the test are a mass of 7.8 kg, traveling at 1 m/s, with an circula
<a href='https://gitlab.cba.mit.edu/calischs/foam-impact/tree/master/video'>video/</a> contains details of video analysis of the drop test. For now, this is implemented with a Sony RX-100 IV camera shooting at 960 fps and the free software <a href='http://physlets.org/tracker/'>Tracker</a> to analyze acceleration profiles.
<img src='impactor/turning-mass.jpg' height=300px>
<img src='impactor/milling-mass.jpg' height=300px>
<img src='impactor/adxl372z.jpg' height=300px>
<img src='impactor/instron.jpg' height=300px>
......@@ -25,5 +28,5 @@ The specs for the test are a mass of 7.8 kg, traveling at 1 m/s, with an circula
I've been using this measurement device to characterize the dynamics of folded foam samples I've been producing. Below are the acceleration profiles of two folded samples compared against conventional foams.
<img src='analysis/impact-first-kiri.png' height=300px>
<img src='analysis/impact-first-kiri.png' width=80%>
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